def deserialize( self, inputs: Dict[str, Readable], options: Dict = None ) -> EventDataset: WyscoutSerializer.__validate_inputs(inputs) if not options: options = {} wanted_event_types = [ EventType[event_type.upper()] for event_type in options.get("event_types", []) ] with performance_logging("load data", logger=logger): raw_events = json.load(inputs["event_data"]) periods = [] with performance_logging("parse data", logger=logger): home_team_id, away_team_id = raw_events["teams"].keys() home_team = _parse_team(raw_events, home_team_id, Ground.HOME) away_team = _parse_team(raw_events, away_team_id, Ground.AWAY) teams = {home_team_id: home_team, away_team_id: away_team} players = dict( [ (wyId, _players_to_dict(team.players)) for wyId, team in teams.items() ] ) events = [] for idx, raw_event in enumerate(raw_events["events"]): next_event = None if (idx + 1) < len(raw_events["events"]): next_event = raw_events["events"][idx + 1] team_id = str(raw_event["teamId"]) player_id = str(raw_event["playerId"]) if ( len(periods) == 0 or periods[-1].id != raw_event["matchPeriod"] ): periods.append( Period( id=raw_event["matchPeriod"], start_timestamp=0, end_timestamp=0, ) ) generic_event_args = { "event_id": raw_event["id"], "raw_event": raw_event, "coordinates": Point( x=float(raw_event["positions"][0]["x"]), y=float(raw_event["positions"][0]["y"]), ), "team": teams[team_id], "player": players[team_id][player_id] if player_id != INVALID_PLAYER else None, "ball_owning_team": None, "ball_state": None, "period": periods[-1], "timestamp": raw_event["eventSec"], } event = None if raw_event["eventName"] == wyscout_events.SHOT.EVENT: shot_event_args = _parse_shot(raw_event, next_event) event = ShotEvent.create( **shot_event_args, **generic_event_args ) elif raw_event["eventName"] == wyscout_events.PASS.EVENT: pass_event_args = _parse_pass(raw_event, next_event) event = PassEvent.create( **pass_event_args, **generic_event_args ) elif raw_event["eventName"] == wyscout_events.FOUL.EVENT: foul_event_args = _parse_foul(raw_event) event = FoulCommittedEvent.create( **foul_event_args, **generic_event_args ) if any( (_has_tag(raw_event, tag) for tag in wyscout_tags.CARD) ): card_event_args = _parse_card(raw_event) event = CardEvent.create( **card_event_args, **generic_event_args ) elif ( raw_event["eventName"] == wyscout_events.INTERRUPTION.EVENT ): ball_out_event_args = _parse_ball_out(raw_event) event = BallOutEvent.create( **ball_out_event_args, **generic_event_args ) elif raw_event["eventName"] == wyscout_events.FREE_KICK.EVENT: set_piece_event_args = _parse_set_piece( raw_event, next_event ) if ( raw_event["subEventName"] in wyscout_events.FREE_KICK.PASS_TYPES ): event = PassEvent.create( **set_piece_event_args, **generic_event_args ) elif ( raw_event["subEventName"] in wyscout_events.FREE_KICK.SHOT_TYPES ): event = ShotEvent.create( **set_piece_event_args, **generic_event_args ) elif ( raw_event["eventName"] == wyscout_events.OTHERS_ON_BALL.EVENT ): recovery_event_args = _parse_recovery(raw_event) event = RecoveryEvent.create( **recovery_event_args, **generic_event_args ) elif raw_event["eventName"] == wyscout_events.DUEL.EVENT: takeon_event_args = _parse_takeon(raw_event) event = TakeOnEvent.create( **takeon_event_args, **generic_event_args ) elif raw_event["eventName"] not in [ wyscout_events.SAVE.EVENT, wyscout_events.OFFSIDE.EVENT, ]: # The events SAVE and OFFSIDE are already merged with PASS and SHOT events qualifiers = _generic_qualifiers(raw_event) event = GenericEvent.create( result=None, qualifiers=qualifiers, **generic_event_args ) if event and _include_event(event, wanted_event_types): events.append(event) metadata = Metadata( teams=[home_team, away_team], periods=periods, pitch_dimensions=PitchDimensions( x_dim=Dimension(0, 100), y_dim=Dimension(0, 100) ), score=None, frame_rate=None, orientation=Orientation.BALL_OWNING_TEAM, flags=None, provider=Provider.WYSCOUT, ) return EventDataset(metadata=metadata, records=events)
def deserialize(self, inputs: Dict[str, Readable], options: Dict = None) -> EventDataset: """ Deserialize StatsBomb event data into a `EventDataset`. Parameters ---------- inputs : dict input `event_data` should point to a `Readable` object containing the 'json' formatted event data. input `lineup_data` should point to a `Readable` object containing the 'json' formatted lineup data. options : dict Options for deserialization of the StatsBomb file. Possible options are `event_types` (list of event types) to specify the event types that should be returned. Valid types: "shot", "pass", "carry", "take_on" and "generic". Generic is everything other than the first 4. Those events are barely parsed. This type of event can be used to do the parsing yourself. Every event has a 'raw_event' attribute which contains the original dictionary. Returns ------- dataset : EventDataset Raises ------ See Also -------- Examples -------- >>> serializer = StatsBombSerializer() >>> with open("events/12312312.json", "rb") as event_data, \ >>> open("lineups/123123123.json", "rb") as lineup_data: >>> >>> dataset = serializer.deserialize( >>> inputs={ >>> 'event_data': event_data, >>> 'lineup_data': lineup_data >>> }, >>> options={ >>> 'event_types': ["pass", "take_on", "carry", "shot"] >>> } >>> ) """ self.__validate_inputs(inputs) if not options: options = {} with performance_logging("load data", logger=logger): raw_events = json.load(inputs["event_data"]) home_lineup, away_lineup = json.load(inputs["lineup_data"]) ( shot_fidelity_version, xy_fidelity_version, ) = _determine_xy_fidelity_versions(raw_events) logger.info( f"Determined Fidelity versions: shot v{shot_fidelity_version} / XY v{xy_fidelity_version}" ) with performance_logging("parse data", logger=logger): starting_player_ids = { str(player["player"]["id"]) for raw_event in raw_events if raw_event["type"]["id"] == SB_EVENT_TYPE_STARTING_XI for player in raw_event["tactics"]["lineup"] } home_team = Team( team_id=str(home_lineup["team_id"]), name=home_lineup["team_name"], ground=Ground.HOME, ) home_team.players = [ Player( player_id=str(player["player_id"]), team=home_team, name=player["player_name"], jersey_no=int(player["jersey_number"]), starting=str(player["player_id"]) in starting_player_ids, ) for player in home_lineup["lineup"] ] away_team = Team( team_id=str(away_lineup["team_id"]), name=away_lineup["team_name"], ground=Ground.AWAY, ) away_team.players = [ Player( player_id=str(player["player_id"]), team=away_team, name=player["player_name"], jersey_no=int(player["jersey_number"]), starting=str(player["player_id"]) in starting_player_ids, ) for player in away_lineup["lineup"] ] teams = [home_team, away_team] wanted_event_types = [ EventType[event_type.upper()] for event_type in options.get("event_types", []) ] periods = [] period = None events = [] for raw_event in raw_events: if raw_event["team"]["id"] == home_lineup["team_id"]: team = teams[0] elif raw_event["team"]["id"] == away_lineup["team_id"]: team = teams[1] else: raise Exception( f"Unknown team_id {raw_event['team']['id']}") if (raw_event["possession_team"]["id"] == home_lineup["team_id"]): possession_team = teams[0] elif (raw_event["possession_team"]["id"] == away_lineup["team_id"]): possession_team = teams[1] else: raise Exception( f"Unknown possession_team_id: {raw_event['possession_team']}" ) timestamp = parse_str_ts(raw_event["timestamp"]) period_id = int(raw_event["period"]) if not period or period.id != period_id: period = Period( id=period_id, start_timestamp=( timestamp if not period # period = [start, end], add millisecond to prevent overlapping else timestamp + period.end_timestamp + 0.001), end_timestamp=None, ) periods.append(period) else: period.end_timestamp = period.start_timestamp + timestamp player = None if "player" in raw_event: player = team.get_player_by_id(raw_event["player"]["id"]) event_type = raw_event["type"]["id"] if event_type == SB_EVENT_TYPE_SHOT: fidelity_version = shot_fidelity_version elif event_type in ( SB_EVENT_TYPE_CARRY, SB_EVENT_TYPE_DRIBBLE, SB_EVENT_TYPE_PASS, ): fidelity_version = xy_fidelity_version else: # TODO: Uh ohhhh.. don't know which one to pick fidelity_version = xy_fidelity_version generic_event_kwargs = dict( # from DataRecord period=period, timestamp=timestamp, ball_owning_team=possession_team, ball_state=BallState.ALIVE, # from Event event_id=raw_event["id"], team=team, player=player, coordinates=(_parse_coordinates(raw_event.get("location"), fidelity_version) if "location" in raw_event else None), raw_event=raw_event, ) if event_type == SB_EVENT_TYPE_PASS: pass_event_kwargs = _parse_pass( pass_dict=raw_event["pass"], team=team, fidelity_version=fidelity_version, ) event = PassEvent.create( # TODO: Consider moving this to _parse_pass receive_timestamp=timestamp + raw_event["duration"], **pass_event_kwargs, **generic_event_kwargs, ) elif event_type == SB_EVENT_TYPE_SHOT: shot_event_kwargs = _parse_shot( shot_dict=raw_event["shot"]) event = ShotEvent.create(**shot_event_kwargs, **generic_event_kwargs) # For dribble and carry the definitions # are flipped between Statsbomb and kloppy elif event_type == SB_EVENT_TYPE_DRIBBLE: take_on_event_kwargs = _parse_take_on( take_on_dict=raw_event["dribble"]) event = TakeOnEvent.create( qualifiers=None, **take_on_event_kwargs, **generic_event_kwargs, ) elif event_type == SB_EVENT_TYPE_CARRY: carry_event_kwargs = _parse_carry( carry_dict=raw_event["carry"], fidelity_version=fidelity_version, ) event = CarryEvent.create( qualifiers=None, # TODO: Consider moving this to _parse_carry end_timestamp=timestamp + raw_event["duration"], **carry_event_kwargs, **generic_event_kwargs, ) # lineup affecting events elif event_type == SB_EVENT_TYPE_SUBSTITUTION: substitution_event_kwargs = _parse_substitution( substitution_dict=raw_event["substitution"], team=team) event = SubstitutionEvent.create( result=None, qualifiers=None, **substitution_event_kwargs, **generic_event_kwargs, ) elif event_type == SB_EVENT_TYPE_BAD_BEHAVIOUR: card_kwargs = _parse_card( card_containing_dict=raw_event.get( "bad_behaviour", {})) if card_kwargs["card_type"]: event = CardEvent.create( result=None, qualifiers=None, card_type=card_kwargs["card_type"], **generic_event_kwargs, ) elif event_type == SB_EVENT_TYPE_FOUL_COMMITTED: card_kwargs = _parse_card( card_containing_dict=raw_event.get( "foul_committed", {})) if card_kwargs["card_type"]: event = CardEvent.create( result=None, qualifiers=None, card_type=card_kwargs["card_type"], **generic_event_kwargs, ) elif event_type == SB_EVENT_TYPE_PLAYER_ON: event = PlayerOnEvent.create(result=None, qualifiers=None, **generic_event_kwargs) elif event_type == SB_EVENT_TYPE_PLAYER_OFF: event = PlayerOffEvent.create(result=None, qualifiers=None, **generic_event_kwargs) elif event_type == SB_EVENT_TYPE_RECOVERY: event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif event_type == SB_EVENT_TYPE_FOUL_COMMITTED: event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) # rest: generic else: event = GenericEvent.create( result=None, qualifiers=None, event_name=raw_event["type"]["name"], **generic_event_kwargs, ) if _include_event(event, wanted_event_types): events.append(event) # Checks if the event ended out of the field and adds a synthetic out event if event.result in OUT_EVENT_RESULTS: generic_event_kwargs["ball_state"] = BallState.DEAD if event.receiver_coordinates: generic_event_kwargs[ "coordinates"] = event.receiver_coordinates event = BallOutEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) if _include_event(event, wanted_event_types): events.append(event) metadata = Metadata( teams=teams, periods=periods, pitch_dimensions=PitchDimensions(x_dim=Dimension(0, 120), y_dim=Dimension(0, 80)), frame_rate=None, orientation=Orientation.ACTION_EXECUTING_TEAM, flags=DatasetFlag.BALL_OWNING_TEAM, score=None, provider=Provider.STATSBOMB, ) return EventDataset( metadata=metadata, records=events, )
def deserialize(self, inputs: MetricaJsonEventDataInputs) -> EventDataset: with performance_logging("load data", logger=logger): raw_events = json.load(inputs.event_data) metadata = load_metadata(inputs.meta_data, provider=Provider.METRICA) transformer = self.get_transformer( length=metadata.pitch_dimensions.length, width=metadata.pitch_dimensions.width, ) with performance_logging("parse data", logger=logger): events = [] for i, raw_event in enumerate(raw_events["data"]): if raw_event["team"]["id"] == metadata.teams[0].team_id: team = metadata.teams[0] elif raw_event["team"]["id"] == metadata.teams[1].team_id: team = metadata.teams[1] else: raise DeserializationError( f"Unknown team_id {raw_event['team']['id']}") player = team.get_player_by_id(raw_event["from"]["id"]) event_type = raw_event["type"]["id"] subtypes = _parse_subtypes(raw_event) period = [ period for period in metadata.periods if period.id == raw_event["period"] ][0] previous_event = raw_events["data"][i - 1] generic_event_kwargs = dict( # from DataRecord period=period, timestamp=raw_event["start"]["time"], ball_owning_team=_parse_ball_owning_team(event_type, team), ball_state=BallState.ALIVE, # from Event event_id=None, team=team, player=player, coordinates=(_parse_coordinates(raw_event["start"])), raw_event=raw_event, ) iteration_events = [] if event_type in MS_PASS_TYPES: pass_event_kwargs = _parse_pass( event=raw_event, previous_event=previous_event, subtypes=subtypes, team=team, ) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_SHOT: shot_event_kwargs = _parse_shot( event=raw_event, previous_event=previous_event, subtypes=subtypes, ) event = ShotEvent.create( **shot_event_kwargs, **generic_event_kwargs, ) elif subtypes and MS_EVENT_TYPE_DRIBBLE in subtypes: take_on_event_kwargs = _parse_take_on(subtypes=subtypes) event = TakeOnEvent.create( qualifiers=None, **take_on_event_kwargs, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_CARRY: carry_event_kwargs = _parse_carry(event=raw_event, ) event = CarryEvent.create( qualifiers=None, **carry_event_kwargs, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_RECOVERY: event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_FOUL_COMMITTED: event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) else: event = GenericEvent.create( result=None, qualifiers=None, event_name=raw_event["type"]["name"], **generic_event_kwargs, ) if self.should_include_event(event): events.append(transformer.transform_event(event)) # Checks if the event ended out of the field and adds a synthetic out event if event.result in OUT_EVENT_RESULTS: generic_event_kwargs["ball_state"] = BallState.DEAD if raw_event["end"]["x"]: generic_event_kwargs[ "coordinates"] = _parse_coordinates( raw_event["end"]) generic_event_kwargs["timestamp"] = raw_event["end"][ "time"] event = BallOutEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) if self.should_include_event(event): events.append(transformer.transform_event(event)) return EventDataset( metadata=metadata, records=events, )
def deserialize(self, inputs: DatafactoryInputs) -> EventDataset: transformer = self.get_transformer(length=2, width=2) with performance_logging("load data", logger=logger): data = json.load(inputs.event_data) match = data["match"] score_data = data["scoreStatus"] incidences = data["incidences"] players_data = data["players"] teams_data = data["teams"] with performance_logging("parse data", logger=logger): teams = [] scores = [] team_ids = ( (Ground.HOME, str(match["homeTeamId"])), (Ground.AWAY, str(match["awayTeamId"])), ) for ground, team_id in team_ids: team = Team( team_id=team_id, name=teams_data[team_id]["name"], ground=ground, ) team.players = [ Player( player_id=player_id, team=team, first_name=player["name"]["first"], last_name=player["name"]["last"], name=player["name"]["shortName"] or player["name"]["nick"], jersey_no=player["squadNo"], starting=not player["substitute"], ) for player_id, player in players_data.items() if str(player["teamId"]) == team_id ] teams.append(team) scores.append(score_data.get(team_id, {}).get("score")) score = Score(home=scores[0], away=scores[1]) # setup periods status = incidences.pop(DF_EVENT_CLASS_STATUS) # start timestamps are fixed start_ts = {1: 0, 2: 45 * 60, 3: 90 * 60, 4: 105 * 60, 5: 120 * 60} # check for end status updates to setup periods end_event_types = { DF_EVENT_TYPE_STATUS_MATCH_END, DF_EVENT_TYPE_STATUS_FIRST_HALF_END, DF_EVENT_TYPE_STATUS_SECOND_HALF_END, DF_EVENT_TYPE_STATUS_FIRST_EXTRA_END, DF_EVENT_TYPE_STATUS_SECOND_EXTRA_END, } periods = {} for status_update in status.values(): if status_update["type"] not in end_event_types: continue half = status_update["t"]["half"] end_ts = parse_str_ts(status_update) periods[half] = Period( id=half, start_timestamp=start_ts[half], end_timestamp=end_ts, attacking_direction=AttackingDirection.HOME_AWAY if half % 2 == 1 else AttackingDirection.AWAY_HOME, ) # exclude goals, already listed as shots too incidences.pop(DF_EVENT_CLASS_GOALS) raw_events = [(k, e_id, e) for k in incidences for e_id, e in incidences[k].items()] # sort events by timestamp, event_id raw_events.sort(key=lambda e: ( e[2]["t"]["half"], e[2]["t"]["m"], e[2]["t"]["s"] or 0, e[1], )) home_team, away_team = teams events = [] previous_event = next_event = None for i, (e_class, e_id, raw_event) in enumerate(raw_events): period = periods.get(raw_event["t"]["half"]) if period is None: # skip invalid event continue timestamp = parse_str_ts(raw_event) if (previous_event is not None and previous_event["t"]["half"] != raw_event["t"]["half"]): previous_event = None next_event = (raw_events[i + 1][2] if i + 1 < len(raw_events) else None) team, player = _get_team_and_player(raw_event, home_team, away_team) event_base_kwargs = dict( # from DataRecord period=period, timestamp=timestamp, ball_owning_team=team, ball_state=BallState.ALIVE, # from Event event_id=e_id, team=team, player=player, coordinates=(_parse_coordinates(raw_event["coord"]["1"]) if "coord" in raw_event else None), raw_event=raw_event, result=None, qualifiers=None, ) if e_class in DF_EVENT_CLASS_PASSES: pass_event_kwargs = _parse_pass( raw_event=raw_event, team=team, previous_event=previous_event, next_event=next_event, ) event_base_kwargs.update(pass_event_kwargs) event = PassEvent.create(**event_base_kwargs) elif e_class == DF_EVENT_CLASS_SHOTS: shot_event_kwargs = _parse_shot( raw_event=raw_event, previous_event=previous_event, ) event_base_kwargs.update(shot_event_kwargs) event = ShotEvent.create(**event_base_kwargs) elif e_class == DF_EVENT_CLASS_STEALINGS: event = RecoveryEvent.create(**event_base_kwargs) elif e_class == DF_EVENT_CLASS_FOULS: # NOTE: could use qualifiers? (hand, foul, penalty?) # switch possession team event_base_kwargs["ball_owning_team"] = ( home_team if team == away_team else away_team) event = FoulCommittedEvent.create(**event_base_kwargs) elif e_class in DF_EVENT_CLASS_CARDS: card_kwargs = _parse_card(raw_event=raw_event, ) event_base_kwargs.update(card_kwargs) event = CardEvent.create(**event_base_kwargs) elif e_class == DF_EVENT_CLASS_SUBSTITUTIONS: substitution_event_kwargs = _parse_substitution( raw_event=raw_event, team=team) event_base_kwargs.update(substitution_event_kwargs) event = SubstitutionEvent.create(**event_base_kwargs) else: # otherwise, a generic event event = GenericEvent.create( event_name=e_class, **event_base_kwargs, ) # check if the event implies ball was out of the field and add a synthetic out event if raw_event["type"] in BALL_OUT_EVENTS: ball_out_event = BallOutEvent.create( # from DataRecord period=period, timestamp=timestamp, ball_owning_team=team, ball_state=BallState.DEAD, # from Event event_id=e_id, team=team, player=player, coordinates=event.coordinates, raw_event=raw_event, result=None, qualifiers=None, ) if self.should_include_event(event): events.append( transformer.transform_event(ball_out_event)) if self.should_include_event(event): events.append(transformer.transform_event(event)) # only consider as a previous_event a ball-in-play event if e_class not in ( DF_EVENT_CLASS_YELLOW_CARDS, DF_EVENT_CLASS_RED_CARDS, DF_EVENT_CLASS_SUBSTITUTIONS, DF_EVENT_CLASS_PENALTY_SHOOTOUT, ): previous_event = raw_event metadata = Metadata( teams=teams, periods=sorted(periods.values(), key=lambda p: p.id), pitch_dimensions=transformer.get_to_coordinate_system(). pitch_dimensions, frame_rate=None, orientation=Orientation.HOME_TEAM, flags=DatasetFlag.BALL_OWNING_TEAM, score=score, provider=Provider.DATAFACTORY, coordinate_system=transformer.get_to_coordinate_system(), ) return EventDataset( metadata=metadata, records=events, )
def deserialize(self, inputs: Dict[str, Readable], options: Dict = None) -> EventDataset: """ Deserialize Opta event data into a `EventDataset`. Parameters ---------- inputs : dict input `f24_data` should point to a `Readable` object containing the 'xml' formatted event data. input `f7_data` should point to a `Readable` object containing the 'xml' formatted f7 data. options : dict Options for deserialization of the Opta file. Possible options are `event_types` (list of event types) to specify the event types that should be returned. Valid types: "shot", "pass", "carry", "take_on" and "generic". Generic is everything other than the first 4. Those events are barely parsed. This type of event can be used to do the parsing yourself. Every event has a 'raw_event' attribute which contains the original dictionary. Returns ------- dataset : EventDataset Raises ------ See Also -------- Examples -------- >>> serializer = OptaSerializer() >>> with open("123_f24.xml", "rb") as f24_data, \ >>> open("123_f7.xml", "rb") as f7_data: >>> >>> dataset = serializer.deserialize( >>> inputs={ >>> 'f24_data': f24_data, >>> 'f7_data': f7_data >>> }, >>> options={ >>> 'event_types': ["pass", "take_on", "carry", "shot"] >>> } >>> ) """ self.__validate_inputs(inputs) if not options: options = {} with performance_logging("load data", logger=logger): f7_root = objectify.fromstring(inputs["f7_data"].read()) f24_root = objectify.fromstring(inputs["f24_data"].read()) wanted_event_types = [ EventType[event_type.upper()] for event_type in options.get("event_types", []) ] with performance_logging("parse data", logger=logger): matchdata_path = objectify.ObjectPath( "SoccerFeed.SoccerDocument.MatchData") team_elms = list( matchdata_path.find(f7_root).iterchildren("TeamData")) home_score = None away_score = None for team_elm in team_elms: if team_elm.attrib["Side"] == "Home": home_score = team_elm.attrib["Score"] home_team = _team_from_xml_elm(team_elm, f7_root) elif team_elm.attrib["Side"] == "Away": away_score = team_elm.attrib["Score"] away_team = _team_from_xml_elm(team_elm, f7_root) else: raise Exception(f"Unknown side: {team_elm.attrib['Side']}") score = Score(home=home_score, away=away_score) teams = [home_team, away_team] if len(home_team.players) == 0 or len(away_team.players) == 0: raise Exception("LineUp incomplete") game_elm = f24_root.find("Game") periods = [ Period( id=1, start_timestamp=None, end_timestamp=None, ), Period( id=2, start_timestamp=None, end_timestamp=None, ), ] possession_team = None events = [] for event_elm in game_elm.iterchildren("Event"): event_id = event_elm.attrib["id"] type_id = int(event_elm.attrib["type_id"]) timestamp = _parse_f24_datetime(event_elm.attrib["timestamp"]) period_id = int(event_elm.attrib["period_id"]) for period in periods: if period.id == period_id: break else: logger.debug( f"Skipping event {event_id} because period doesn't match {period_id}" ) continue if type_id == EVENT_TYPE_START_PERIOD: logger.debug( f"Set start of period {period.id} to {timestamp}") period.start_timestamp = timestamp elif type_id == EVENT_TYPE_END_PERIOD: logger.debug( f"Set end of period {period.id} to {timestamp}") period.end_timestamp = timestamp else: if not period.start_timestamp: # not started yet continue if event_elm.attrib["team_id"] == home_team.team_id: team = teams[0] elif event_elm.attrib["team_id"] == away_team.team_id: team = teams[1] else: raise Exception( f"Unknown team_id {event_elm.attrib['team_id']}") x = float(event_elm.attrib["x"]) y = float(event_elm.attrib["y"]) outcome = int(event_elm.attrib["outcome"]) raw_qualifiers = { int(qualifier_elm.attrib["qualifier_id"]): qualifier_elm.attrib.get("value") for qualifier_elm in event_elm.iterchildren("Q") } player = None if "player_id" in event_elm.attrib: player = team.get_player_by_id( event_elm.attrib["player_id"]) if type_id in BALL_OWNING_EVENTS: possession_team = team generic_event_kwargs = dict( # from DataRecord period=period, timestamp=timestamp - period.start_timestamp, ball_owning_team=possession_team, ball_state=BallState.ALIVE, # from Event event_id=event_id, team=team, player=player, coordinates=Point(x=x, y=y), raw_event=event_elm, ) if type_id == EVENT_TYPE_PASS: pass_event_kwargs = _parse_pass( raw_qualifiers, outcome) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_OFFSIDE_PASS: pass_event_kwargs = _parse_offside_pass(raw_qualifiers) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_TAKE_ON: take_on_event_kwargs = _parse_take_on(outcome) event = TakeOnEvent.create( qualifiers=None, **take_on_event_kwargs, **generic_event_kwargs, ) elif type_id in ( EVENT_TYPE_SHOT_MISS, EVENT_TYPE_SHOT_POST, EVENT_TYPE_SHOT_SAVED, EVENT_TYPE_SHOT_GOAL, ): shot_event_kwargs = _parse_shot( raw_qualifiers, type_id, coordinates=generic_event_kwargs["coordinates"], ) kwargs = {} kwargs.update(generic_event_kwargs) kwargs.update(shot_event_kwargs) event = ShotEvent.create(**kwargs) elif type_id == EVENT_TYPE_RECOVERY: event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_FOUL_COMMITTED: event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif type_id in BALL_OUT_EVENTS: generic_event_kwargs["ball_state"] = BallState.DEAD event = BallOutEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) else: event = GenericEvent.create( **generic_event_kwargs, result=None, qualifiers=None, event_name=_get_event_type_name(type_id), ) if (not wanted_event_types or event.event_type in wanted_event_types): events.append(event) metadata = Metadata( teams=teams, periods=periods, pitch_dimensions=PitchDimensions(x_dim=Dimension(0, 100), y_dim=Dimension(0, 100)), score=score, frame_rate=None, orientation=Orientation.ACTION_EXECUTING_TEAM, flags=DatasetFlag.BALL_OWNING_TEAM, provider=Provider.OPTA, ) return EventDataset( metadata=metadata, records=events, )
def deserialize(self, inputs: StatsbombInputs) -> EventDataset: transformer = self.get_transformer(length=120, width=80) with performance_logging("load data", logger=logger): raw_events = json.load(inputs.event_data) home_lineup, away_lineup = json.load(inputs.lineup_data) ( shot_fidelity_version, xy_fidelity_version, ) = _determine_xy_fidelity_versions(raw_events) logger.info( f"Determined Fidelity versions: shot v{shot_fidelity_version} / XY v{xy_fidelity_version}" ) with performance_logging("parse data", logger=logger): starting_player_ids = { str(player["player"]["id"]) for raw_event in raw_events if raw_event["type"]["id"] == SB_EVENT_TYPE_STARTING_XI for player in raw_event["tactics"]["lineup"] } starting_formations = { raw_event["team"]["id"]: FormationType("-".join( list(str(raw_event["tactics"]["formation"])))) for raw_event in raw_events if raw_event["type"]["id"] == SB_EVENT_TYPE_STARTING_XI } home_team = Team( team_id=str(home_lineup["team_id"]), name=home_lineup["team_name"], ground=Ground.HOME, starting_formation=starting_formations[home_lineup["team_id"]], ) home_team.players = [ Player( player_id=str(player["player_id"]), team=home_team, name=player["player_name"], jersey_no=int(player["jersey_number"]), starting=str(player["player_id"]) in starting_player_ids, ) for player in home_lineup["lineup"] ] away_team = Team( team_id=str(away_lineup["team_id"]), name=away_lineup["team_name"], ground=Ground.AWAY, starting_formation=starting_formations[away_lineup["team_id"]], ) away_team.players = [ Player( player_id=str(player["player_id"]), team=away_team, name=player["player_name"], jersey_no=int(player["jersey_number"]), starting=str(player["player_id"]) in starting_player_ids, ) for player in away_lineup["lineup"] ] teams = [home_team, away_team] periods = [] period = None events = [] for raw_event in raw_events: if raw_event["team"]["id"] == home_lineup["team_id"]: team = home_team elif raw_event["team"]["id"] == away_lineup["team_id"]: team = away_team else: raise DeserializationError( f"Unknown team_id {raw_event['team']['id']}") if (raw_event["possession_team"]["id"] == home_lineup["team_id"]): possession_team = home_team elif (raw_event["possession_team"]["id"] == away_lineup["team_id"]): possession_team = away_team else: raise DeserializationError( f"Unknown possession_team_id: {raw_event['possession_team']}" ) timestamp = parse_str_ts(raw_event["timestamp"]) period_id = int(raw_event["period"]) if not period or period.id != period_id: period = Period( id=period_id, start_timestamp=( timestamp if not period # period = [start, end], add millisecond to prevent overlapping else timestamp + period.end_timestamp + 0.001), end_timestamp=None, ) periods.append(period) else: period.end_timestamp = period.start_timestamp + timestamp player = None if "player" in raw_event: player = team.get_player_by_id(raw_event["player"]["id"]) event_type = raw_event["type"]["id"] if event_type == SB_EVENT_TYPE_SHOT: fidelity_version = shot_fidelity_version elif event_type in ( SB_EVENT_TYPE_CARRY, SB_EVENT_TYPE_DRIBBLE, SB_EVENT_TYPE_PASS, ): fidelity_version = xy_fidelity_version else: # TODO: Uh ohhhh.. don't know which one to pick fidelity_version = xy_fidelity_version generic_event_kwargs = { # from DataRecord "period": period, "timestamp": timestamp, "ball_owning_team": possession_team, "ball_state": BallState.ALIVE, # from Event "event_id": raw_event["id"], "team": team, "player": player, "coordinates": (_parse_coordinates( raw_event.get("location"), fidelity_version, ) if "location" in raw_event else None), "related_event_ids": raw_event.get("related_events", []), "raw_event": raw_event, } new_events = [] if event_type == SB_EVENT_TYPE_PASS: pass_event_kwargs = _parse_pass( pass_dict=raw_event["pass"], team=team, fidelity_version=fidelity_version, ) pass_event = PassEvent.create( # TODO: Consider moving this to _parse_pass receive_timestamp=timestamp + raw_event["duration"], **pass_event_kwargs, **generic_event_kwargs, ) new_events.append(pass_event) elif event_type == SB_EVENT_TYPE_SHOT: shot_event_kwargs = _parse_shot( shot_dict=raw_event["shot"], ) shot_event = ShotEvent.create( **shot_event_kwargs, **generic_event_kwargs, ) new_events.append(shot_event) # For dribble and carry the definitions # are flipped between Statsbomb and kloppy elif event_type == SB_EVENT_TYPE_DRIBBLE: take_on_event_kwargs = _parse_take_on( take_on_dict=raw_event["dribble"], ) take_on_event = TakeOnEvent.create( qualifiers=None, **take_on_event_kwargs, **generic_event_kwargs, ) new_events.append(take_on_event) elif event_type == SB_EVENT_TYPE_CARRY: carry_event_kwargs = _parse_carry( carry_dict=raw_event["carry"], fidelity_version=fidelity_version, ) carry_event = CarryEvent.create( qualifiers=None, # TODO: Consider moving this to _parse_carry end_timestamp=timestamp + raw_event.get("duration", 0), **carry_event_kwargs, **generic_event_kwargs, ) new_events.append(carry_event) # lineup affecting events elif event_type == SB_EVENT_TYPE_SUBSTITUTION: substitution_event_kwargs = _parse_substitution( substitution_dict=raw_event["substitution"], team=team, ) substitution_event = SubstitutionEvent.create( result=None, qualifiers=None, **substitution_event_kwargs, **generic_event_kwargs, ) new_events.append(substitution_event) elif event_type == SB_EVENT_TYPE_BAD_BEHAVIOUR: bad_behaviour_kwargs = _parse_bad_behaviour( bad_behaviour_dict=raw_event.get("bad_behaviour", {}), ) if "card" in bad_behaviour_kwargs: card_kwargs = bad_behaviour_kwargs["card"] card_event = CardEvent.create( result=None, qualifiers=None, card_type=card_kwargs["card_type"], **generic_event_kwargs, ) new_events.append(card_event) elif event_type == SB_EVENT_TYPE_FOUL_COMMITTED: foul_committed_kwargs = _parse_foul_committed( foul_committed_dict=raw_event.get( "foul_committed", {}), ) foul_committed_event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) new_events.append(foul_committed_event) if "card" in foul_committed_kwargs: card_kwargs = foul_committed_kwargs["card"] card_event = CardEvent.create( result=None, qualifiers=None, card_type=card_kwargs["card_type"], **generic_event_kwargs, ) new_events.append(card_event) elif event_type == SB_EVENT_TYPE_PLAYER_ON: player_on_event = PlayerOnEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) new_events.append(player_on_event) elif event_type == SB_EVENT_TYPE_PLAYER_OFF: player_off_event = PlayerOffEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) new_events.append(player_off_event) elif event_type == SB_EVENT_TYPE_RECOVERY: recovery_event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) new_events.append(recovery_event) elif event_type == SB_EVENT_TYPE_FORMATION_CHANGE: formation_change_event_kwargs = _parse_formation_change( raw_event["tactics"]["formation"]) formation_change_event = FormationChangeEvent.create( result=None, qualifiers=None, **formation_change_event_kwargs, **generic_event_kwargs, ) new_events.append(formation_change_event) # rest: generic else: generic_event = GenericEvent.create( result=None, qualifiers=None, event_name=raw_event["type"]["name"], **generic_event_kwargs, ) new_events.append(generic_event) for event in new_events: if self.should_include_event(event): transformed_event = transformer.transform_event(event) events.append(transformed_event) # Checks if the event ended out of the field and adds a synthetic out event if event.result in OUT_EVENT_RESULTS: generic_event_kwargs["ball_state"] = BallState.DEAD if event.receiver_coordinates: generic_event_kwargs[ "coordinates"] = event.receiver_coordinates ball_out_event = BallOutEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) if self.should_include_event(ball_out_event): transformed_ball_out_event = ( transformer.transform_event(ball_out_event) ) events.append(transformed_ball_out_event) metadata = Metadata( teams=teams, periods=periods, pitch_dimensions=transformer.get_to_coordinate_system(). pitch_dimensions, frame_rate=None, orientation=Orientation.ACTION_EXECUTING_TEAM, flags=DatasetFlag.BALL_OWNING_TEAM, score=None, provider=Provider.STATSBOMB, coordinate_system=transformer.get_to_coordinate_system(), ) return EventDataset( metadata=metadata, records=events, )
def deserialize( self, inputs: Dict[str, Readable], options: Dict = None ) -> EventDataset: """ Deserialize Metrica Sports event data json format into a `EventDataset`. Parameters ---------- inputs : dict input `event_data` should point to a `Readable` object containing the 'json' formatted event data. input `metadata` should point to a `Readable` object containing the `xml` metadata file. options : dict Options for deserialization of the Metrica Sports event json file. Possible options are `event_types` (list of event types) to specify the event types that should be returned. Valid types: "shot", "pass", "carry", "take_on" and "generic". Generic is everything other than the first 4. Those events are barely parsed. This type of event can be used to do the parsing yourself. Every event has a 'raw_event' attribute which contains the original dictionary. Returns ------- dataset : EventDataset Raises ------ See Also -------- Examples -------- >>> serializer = MetricaEventsJsonSerializer() >>> with open("events.json", "rb") as event_data, \ >>> open("metadata.xml", "rb") as metadata: >>> >>> dataset = serializer.deserialize( >>> inputs={ >>> 'event_data': event_data, >>> 'metadata': metadata >>> }, >>> options={ >>> 'event_types': ["pass", "take_on", "carry", "shot"] >>> } >>> ) """ self.__validate_inputs(inputs) if not options: options = {} with performance_logging("load data", logger=logger): raw_events = json.load(inputs["event_data"]) metadata = load_metadata( inputs["metadata"], provider=Provider.METRICA ) with performance_logging("parse data", logger=logger): wanted_event_types = [ EventType[event_type.upper()] for event_type in options.get("event_types", []) ] events = [] for i, raw_event in enumerate(raw_events["data"]): if raw_event["team"]["id"] == metadata.teams[0].team_id: team = metadata.teams[0] elif raw_event["team"]["id"] == metadata.teams[1].team_id: team = metadata.teams[1] else: raise Exception( f"Unknown team_id {raw_event['team']['id']}" ) player = team.get_player_by_id(raw_event["from"]["id"]) event_type = raw_event["type"]["id"] subtypes = _parse_subtypes(raw_event) period = [ period for period in metadata.periods if period.id == raw_event["period"] ][0] previous_event = raw_events["data"][i - 1] generic_event_kwargs = dict( # from DataRecord period=period, timestamp=raw_event["start"]["time"], ball_owning_team=_parse_ball_owning_team(event_type, team), ball_state=BallState.ALIVE, # from Event event_id=None, team=team, player=player, coordinates=(_parse_coordinates(raw_event["start"])), raw_event=raw_event, ) iteration_events = [] if event_type in MS_PASS_TYPES: pass_event_kwargs = _parse_pass( event=raw_event, previous_event=previous_event, subtypes=subtypes, team=team, ) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_SHOT: shot_event_kwargs = _parse_shot( event=raw_event, previous_event=previous_event, subtypes=subtypes, ) event = ShotEvent.create( **shot_event_kwargs, **generic_event_kwargs, ) elif subtypes and MS_EVENT_TYPE_DRIBBLE in subtypes: take_on_event_kwargs = _parse_take_on(subtypes=subtypes) event = TakeOnEvent.create( qualifiers=None, **take_on_event_kwargs, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_CARRY: carry_event_kwargs = _parse_carry( event=raw_event, ) event = CarryEvent.create( qualifiers=None, **carry_event_kwargs, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_RECOVERY: event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif event_type == MS_EVENT_TYPE_FOUL_COMMITTED: event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) else: event = GenericEvent.create( result=None, qualifiers=None, event_name=raw_event["type"]["name"], **generic_event_kwargs, ) if _include_event(event, wanted_event_types): events.append(event) # Checks if the event ended out of the field and adds a synthetic out event if event.result in OUT_EVENT_RESULTS: generic_event_kwargs["ball_state"] = BallState.DEAD if raw_event["end"]["x"]: generic_event_kwargs[ "coordinates" ] = _parse_coordinates(raw_event["end"]) generic_event_kwargs["timestamp"] = raw_event["end"][ "time" ] event = BallOutEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) if _include_event(event, wanted_event_types): events.append(event) return EventDataset( metadata=metadata, records=events, )
def deserialize(self, inputs: OptaInputs) -> EventDataset: transformer = self.get_transformer(length=100, width=100) with performance_logging("load data", logger=logger): f7_root = objectify.fromstring(inputs.f7_data.read()) f24_root = objectify.fromstring(inputs.f24_data.read()) with performance_logging("parse data", logger=logger): matchdata_path = objectify.ObjectPath( "SoccerFeed.SoccerDocument.MatchData") team_elms = list( matchdata_path.find(f7_root).iterchildren("TeamData")) home_score = None away_score = None for team_elm in team_elms: if team_elm.attrib["Side"] == "Home": home_score = team_elm.attrib["Score"] home_team = _team_from_xml_elm(team_elm, f7_root) elif team_elm.attrib["Side"] == "Away": away_score = team_elm.attrib["Score"] away_team = _team_from_xml_elm(team_elm, f7_root) else: raise DeserializationError( f"Unknown side: {team_elm.attrib['Side']}") score = Score(home=home_score, away=away_score) teams = [home_team, away_team] if len(home_team.players) == 0 or len(away_team.players) == 0: raise DeserializationError("LineUp incomplete") game_elm = f24_root.find("Game") periods = [ Period( id=1, start_timestamp=None, end_timestamp=None, ), Period( id=2, start_timestamp=None, end_timestamp=None, ), ] possession_team = None events = [] for event_elm in game_elm.iterchildren("Event"): event_id = event_elm.attrib["id"] type_id = int(event_elm.attrib["type_id"]) timestamp = _parse_f24_datetime(event_elm.attrib["timestamp"]) period_id = int(event_elm.attrib["period_id"]) for period in periods: if period.id == period_id: break else: logger.debug( f"Skipping event {event_id} because period doesn't match {period_id}" ) continue if type_id == EVENT_TYPE_START_PERIOD: logger.debug( f"Set start of period {period.id} to {timestamp}") period.start_timestamp = timestamp elif type_id == EVENT_TYPE_END_PERIOD: logger.debug( f"Set end of period {period.id} to {timestamp}") period.end_timestamp = timestamp else: if not period.start_timestamp: # not started yet continue if event_elm.attrib["team_id"] == home_team.team_id: team = teams[0] elif event_elm.attrib["team_id"] == away_team.team_id: team = teams[1] else: raise DeserializationError( f"Unknown team_id {event_elm.attrib['team_id']}") x = float(event_elm.attrib["x"]) y = float(event_elm.attrib["y"]) outcome = int(event_elm.attrib["outcome"]) raw_qualifiers = { int(qualifier_elm.attrib["qualifier_id"]): qualifier_elm.attrib.get("value") for qualifier_elm in event_elm.iterchildren("Q") } player = None if "player_id" in event_elm.attrib: player = team.get_player_by_id( event_elm.attrib["player_id"]) if type_id in BALL_OWNING_EVENTS: possession_team = team generic_event_kwargs = dict( # from DataRecord period=period, timestamp=timestamp - period.start_timestamp, ball_owning_team=possession_team, ball_state=BallState.ALIVE, # from Event event_id=event_id, team=team, player=player, coordinates=Point(x=x, y=y), raw_event=event_elm, ) if type_id == EVENT_TYPE_PASS: pass_event_kwargs = _parse_pass( raw_qualifiers, outcome) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_OFFSIDE_PASS: pass_event_kwargs = _parse_offside_pass(raw_qualifiers) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_TAKE_ON: take_on_event_kwargs = _parse_take_on(outcome) event = TakeOnEvent.create( qualifiers=None, **take_on_event_kwargs, **generic_event_kwargs, ) elif type_id in ( EVENT_TYPE_SHOT_MISS, EVENT_TYPE_SHOT_POST, EVENT_TYPE_SHOT_SAVED, EVENT_TYPE_SHOT_GOAL, ): if type_id == EVENT_TYPE_SHOT_GOAL: if 374 in raw_qualifiers.keys(): generic_event_kwargs["timestamp"] = ( _parse_f24_datetime( raw_qualifiers.get(374).replace( " ", "T")) - period.start_timestamp) shot_event_kwargs = _parse_shot( raw_qualifiers, type_id, coordinates=generic_event_kwargs["coordinates"], ) kwargs = {} kwargs.update(generic_event_kwargs) kwargs.update(shot_event_kwargs) event = ShotEvent.create(**kwargs) elif type_id == EVENT_TYPE_RECOVERY: event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_FOUL_COMMITTED: event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif type_id in BALL_OUT_EVENTS: generic_event_kwargs["ball_state"] = BallState.DEAD event = BallOutEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_FORMATION_CHANGE: formation_change_event_kwargs = ( _parse_formation_change(raw_qualifiers)) event = FormationChangeEvent.create( result=None, qualifiers=None, **formation_change_event_kwargs, **generic_event_kwargs, ) elif type_id == EVENT_TYPE_CARD: generic_event_kwargs["ball_state"] = BallState.DEAD card_event_kwargs = _parse_card(raw_qualifiers) event = CardEvent.create( **card_event_kwargs, **generic_event_kwargs, ) else: event = GenericEvent.create( **generic_event_kwargs, result=None, qualifiers=None, event_name=_get_event_type_name(type_id), ) if self.should_include_event(event): events.append(transformer.transform_event(event)) metadata = Metadata( teams=teams, periods=periods, pitch_dimensions=transformer.get_to_coordinate_system(). pitch_dimensions, score=score, frame_rate=None, orientation=Orientation.ACTION_EXECUTING_TEAM, flags=DatasetFlag.BALL_OWNING_TEAM, provider=Provider.OPTA, coordinate_system=transformer.get_to_coordinate_system(), ) return EventDataset( metadata=metadata, records=events, )
def deserialize(self, inputs: SportecInputs) -> EventDataset: with performance_logging("load data", logger=logger): match_root = objectify.fromstring(inputs.meta_data.read()) event_root = objectify.fromstring(inputs.event_data.read()) with performance_logging("parse data", logger=logger): x_max = float( match_root.MatchInformation.Environment.attrib["PitchX"] ) y_max = float( match_root.MatchInformation.Environment.attrib["PitchY"] ) transformer = self.get_transformer(length=x_max, width=y_max) team_path = objectify.ObjectPath( "PutDataRequest.MatchInformation.Teams" ) team_elms = list(team_path.find(match_root).iterchildren("Team")) for team_elm in team_elms: if team_elm.attrib["Role"] == "home": home_team = _team_from_xml_elm(team_elm) elif team_elm.attrib["Role"] == "guest": away_team = _team_from_xml_elm(team_elm) else: raise DeserializationError( f"Unknown side: {team_elm.attrib['Role']}" ) ( home_score, away_score, ) = match_root.MatchInformation.General.attrib["Result"].split(":") score = Score(home=int(home_score), away=int(away_score)) teams = [home_team, away_team] if len(home_team.players) == 0 or len(away_team.players) == 0: raise DeserializationError("LineUp incomplete") periods = [] period_id = 0 events = [] for event_elm in event_root.iterchildren("Event"): event_chain = _event_chain_from_xml_elm(event_elm) timestamp = _parse_datetime(event_chain["Event"]["EventTime"]) if ( SPORTEC_EVENT_NAME_KICKOFF in event_chain and "GameSection" in event_chain[SPORTEC_EVENT_NAME_KICKOFF] ): period_id += 1 period = Period( id=period_id, start_timestamp=timestamp, end_timestamp=None, ) if period_id == 1: team_left = event_chain[SPORTEC_EVENT_NAME_KICKOFF][ "TeamLeft" ] if team_left == home_team.team_id: # goal of home team is on the left side. # this means they attack from left to right orientation = Orientation.FIXED_HOME_AWAY period.set_attacking_direction( AttackingDirection.HOME_AWAY ) else: orientation = Orientation.FIXED_AWAY_HOME period.set_attacking_direction( AttackingDirection.AWAY_HOME ) else: last_period = periods[-1] period.set_attacking_direction( AttackingDirection.AWAY_HOME if last_period.attacking_direction == AttackingDirection.HOME_AWAY else AttackingDirection.HOME_AWAY ) periods.append(period) elif SPORTEC_EVENT_NAME_FINAL_WHISTLE in event_chain: period.end_timestamp = timestamp continue team = None player = None flatten_attributes = dict() # reverse because top levels are more important for event_attributes in reversed(event_chain.values()): flatten_attributes.update(event_attributes) if "Team" in flatten_attributes: team = ( home_team if flatten_attributes["Team"] == home_team.team_id else away_team ) if "Player" in flatten_attributes: if not team: raise ValueError("Player set while team is not set") player = team.get_player_by_id( flatten_attributes["Player"] ) generic_event_kwargs = dict( # from DataRecord period=period, timestamp=timestamp - period.start_timestamp, ball_owning_team=None, ball_state=BallState.ALIVE, # from Event event_id=event_chain["Event"]["EventId"], coordinates=_parse_coordinates(event_chain["Event"]), raw_event=flatten_attributes, team=team, player=player, ) event_name, event_attributes = event_chain.popitem() if event_name in SPORTEC_SHOT_EVENT_NAMES: shot_event_kwargs = _parse_shot( event_name=event_name, event_chain=event_chain ) event = ShotEvent.create( **shot_event_kwargs, **generic_event_kwargs, ) elif event_name in SPORTEC_PASS_EVENT_NAMES: pass_event_kwargs = _parse_pass( event_chain=event_chain, team=team ) event = PassEvent.create( **pass_event_kwargs, **generic_event_kwargs, receive_timestamp=None, receiver_coordinates=None, ) elif event_name == SPORTEC_EVENT_NAME_BALL_CLAIMING: event = RecoveryEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) elif event_name == SPORTEC_EVENT_NAME_SUBSTITUTION: substitution_event_kwargs = _parse_substitution( event_attributes=event_attributes, team=team ) generic_event_kwargs["player"] = substitution_event_kwargs[ "player" ] del substitution_event_kwargs["player"] event = SubstitutionEvent.create( result=None, qualifiers=None, **substitution_event_kwargs, **generic_event_kwargs, ) elif event_name == SPORTEC_EVENT_NAME_CAUTION: card_kwargs = _parse_caution(event_attributes) event = CardEvent.create( result=None, qualifiers=None, **card_kwargs, **generic_event_kwargs, ) elif event_name == SPORTEC_EVENT_NAME_FOUL: foul_kwargs = _parse_foul(event_attributes, teams=teams) generic_event_kwargs.update(foul_kwargs) event = FoulCommittedEvent.create( result=None, qualifiers=None, **generic_event_kwargs, ) else: event = GenericEvent.create( result=None, qualifiers=None, event_name=event_name, **generic_event_kwargs, ) if events: previous_event = events[-1] if ( previous_event.event_type == EventType.PASS and previous_event.result == PassResult.COMPLETE ): if "X-Source-Position" in event_chain["Event"]: previous_event.receiver_coordinates = Point( x=float( event_chain["Event"]["X-Source-Position"] ), y=float( event_chain["Event"]["Y-Source-Position"] ), ) if ( event.event_type == EventType.PASS and event.get_qualifier_value(SetPieceQualifier) in ( SetPieceType.THROW_IN, SetPieceType.GOAL_KICK, SetPieceType.CORNER_KICK, ) ): # 1. update previous pass if events[-1].event_type == EventType.PASS: events[-1].result = PassResult.OUT # 2. add synthetic out event decision_timestamp = _parse_datetime( event_chain[list(event_chain.keys())[1]][ "DecisionTimestamp" ] ) out_event = BallOutEvent.create( period=period, timestamp=decision_timestamp - period.start_timestamp, ball_owning_team=None, ball_state=BallState.DEAD, # from Event event_id=event_chain["Event"]["EventId"] + "-ball-out", team=events[-1].team, player=events[-1].player, coordinates=None, raw_event={}, result=None, qualifiers=None, ) events.append(transformer.transform_event(out_event)) events.append(transformer.transform_event(event)) events = list( filter( self.should_include_event, events, ) ) metadata = Metadata( teams=teams, periods=periods, pitch_dimensions=transformer.get_to_coordinate_system().pitch_dimensions, score=score, frame_rate=None, orientation=orientation, flags=~(DatasetFlag.BALL_STATE | DatasetFlag.BALL_OWNING_TEAM), provider=Provider.SPORTEC, coordinate_system=transformer.get_to_coordinate_system(), ) return EventDataset( metadata=metadata, records=events, )